Gel compositions

ABSTRACT

Gelled ester compositions are provided. The gelled esters are obtained by mixing a suitable ester with one or more triblock copolymers, star polymers, radial polymers, multi-block copolymers, or mixtures thereof. Optionally, one or more diblock copolymers can be used in forming the gel compositions. In addition to gelled esters, gelled alcohols, gelled ethers, and gelled naturally-occurring fats and oils also are obtained by using one or more diblock copolymers, triblock copolymers, star polymers, radial polymers, multi-block copolymers, or mixtures thereof as a gelling agent. Butyl rubbers and alkyl galactomannan also can be used as a gelling agent. The gel compositions may be used to suspend various solids and/or liquids.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a continuation application of U.S. patent application Ser. No.09/419,571, filed on Oct. 18, 1999, which claims benefit of U.S.Provisional Patent Application No. 60/106,094, filed Oct. 29, 1998, bothof which are incorporated herein in their entirety.

FIELD OF THE INVENTION

This invention relates to gel compositions which include esters, ethers,alcohols, naturally-occurring fats and oils, or mixtures thereof.

BACKGROUND OF THE INVENTION

Numerous gel compositions are known in the art. Some have proven to be aconvenient and efficient vehicle or carrier for the application ofvarious active ingredients to the skin. Such active ingredients includeantiperspirants, deodorants, perfumes, sunscreens, cosmetics,emollients, insect repellants, medicaments, and the like. Productsincorporating a gel composition and those made entirely from a gelcomposition may be in the form of a soft gel or a stick. Rubbing a softgel or solid stick containing an effective amount of an activeingredient dissolved or dispersed therein against the skin causestransfer of the gel composition to the skin surface in a layer form,leaving the active ingredient within the layer on the desired skinsurface.

For topical administration of various cosmetic and health and beautymaterials to the skin, a gel composition preferably should have one ormore of the following desired properties: transparency, compatibilitywith the active ingredient, controlled release of the active ingredient,minimization of skin irritation, and the ability to suspend organic andinorganic materials, such as color pigments, glitters, water, air, metaloxides, sunscreen active particulates, and fragrances. In sunscreenapplications, it is desirable if the gel itself could act as a sunscreenactive ingredient. Moreover, it should moisturize the skin and exhibitwater wash-off resistence, but should not have significant syneresis.For industrial applications, a gel base may offer one or more of thefollowing properties: suspension, moisture barrier, rheology, solvency,controlled release, wetting, self-emulsifying, etc. For example, in thepaint industry the properties that are important are suspension andcontrolled release.

A gel composition typically is made by mixing one or more compounds tobe gelled with a gelling agent. Known gelling agents include metalsoaps, surfactants, homopolymers, ionic homopolymers and copolymers,fumed silica, natural derivatives of gums, waxes, clay, and so on.Common gelling agents for cosmetic oils are fatty acid soaps of lithium,calcium, sodium, aluminum, zinc, and barium. A number of homopolymersand copolymers, such as atatic ethylene-propylene copolymers, have beenused to gel hydrocarbons. For example, gelled mineral oils have beenavailable; however, gel compositions including an ester, ether, alcohol,or vegetable oil are less common. Because gel compositions including anester, alcohol, ether, or naturally-occurring fat or oil may provide abetter alternative to hydrocarbon gels, there is a need for exploringmethods of making such gel compositions.

SUMMARY OF THE INVENTION

The invention meets the aforementioned need in one or more of thefollowing aspects. In one aspect, the invention relates to a gelcomposition that includes an ester compound and a polymer compoundselected from the group consisting of triblock copolymers, starpolymers, radial polymers, multi-block copolymers, and combinationsthereof. The gel composition optionally may include a diblock copolymer.When the gel composition includes a diblock copolymer, the gelcomposition preferably is substantially free of mineral oils. In someembodiments, the gel composition may further include a suspendedcomponent. In other embodiments, the gel composition may further includean active ingredient. The active ingredient includes, but is not limitedto, sun screens, antiperspirants, deodorants, perfumes, cosmetics,emollients, insect repellants, pesticides, herbicides, fungicides,plasticizers, insecticides, and medicaments.

In another aspect, the invention relates to a gel composition whichincludes at least two components. The first component is a compoundselected from the group consisting of alcohols, ethers,naturally-occurring fats and oils, and combinations thereof. The secondcomponent is a polymer compound selected from the group consisting ofdiblock copolymers, triblock copolymers, star polymers, radial polymers,multi-block copolymers, and combinations thereof. In some embodiments,suitable alcohols include, but are not limited to, octyl dodecanol andisostearyl alcohol. In other embodiments, suitable ethers include, butare not limited to, dicarylyl ether. In still other embodiments,suitable naturally-occurring fats and oils include, but are not limitedto, linseed oil, soybean oil, sunflower seed oil, corn oil, sesame oil,olive oil, castor oil, coconut oil, palm oil, and peanut oil.

In yet another aspect, the invention relates to a gel composition whichincludes at least two components. The first component is a compoundselected from the group consisting of esters, alcohols, ethers,naturally-occurring fats and oils, and combinations thereof. The secondcomponent is a polymer compound selected from the group consisting ofalkyl galactomannan, polybutadiene, and combinations thereof.

In still another aspect, the invention relates to a method of making agel composition. The method includes (a) mixing an ester compound with apolymer compound selected from the group consisting of triblockcopolymers, star polymers, radial polymers, multi-block copolymers, andcombinations thereof; (b) heating the mixture; (c) agitating the mixtureuntil the mixture becomes homogeneous; and (d) cooling the mixture.

In still yet another aspect, the invention relates to a method of makinga gel composition. The method includes (a) mixing an alcohol, an ether,or a naturally-occurring fat or oil with a polymer compound selectedfrom the group consisting of diblock copolymers, triblock copolymers,star copolymers, radial polymers, multi-block copolymers, andcombinations thereof, (b) heating the mixture; (c) agitating the mixtureuntil the mixture becomes homogeneous; and (d) cooling the mixture.

In another aspect, the invention relates to a method of making a gelcomposition. The method includes (a) mixing an ester, an alcohol, anether, or a naturally-occurring fat or oil with alkyl galactomannan, orpolybutadiene; (b) heating the mixture; (c) agitating the mixture untilthe mixture becomes homogeneous; and (d) cooling the mixture.

Properties and advantages of the embodiments of the invention becomeapparent with the following description.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic illustrating the chain structure of a diblockcopolymer used in embodiments of the invention.

FIG. 2 is a schematic illustrating the chain structure of a triblockcopolymer used in embodiments of the invention.

FIG. 3 is a schematic illustrating the chain structure of a radialpolymer used in embodiments of the invention.

FIG. 4 is a schematic illustrating the chain structure of a star polymerused in embodiments of the invention.

FIGS. 5A-5B are schematics illustrating the chain structure ofmulti-block copolymers used in embodiments of the invention.

DESCRIPTION OF EMBODIMENTS OF THE INVENTION

Embodiments of the invention are, in part, based on the discovery thatesters, alcohols, ethers, and naturally-occurring fats and oils can begelled by using selected polymeric gelling agents. For example, diblockcopolymers, triblock copolymers, radial polymers, star polymers,multi-block copolymers, butyl rubbers, alkyl galactomannan, and mixturesthereof can be used as gelling agents to obtain gelled esters, gelledethers, gelled alcohols, and gelled naturally-occurring fats and oils.In some embodiments, the gel compositions and products made therefromare transparent or substantially transparent. In other embodiments, thegel compositions and products made therefrom are semi-transparent, hazy,or opaque. These gel compositions and products made therefrom each havenumerous cosmetic and industrial applications.

A gel refers to a two-phase colloidal system comprising a liquid and asolid in the form of thickened liquid, semi-solid or solid. A gel alsocan refer to a composition that is either physically cross-linked byvirtue of entangled polymer chains, or chemically cross-linked by virtueof covalent bonds such that it swells, but does not dissolve, in thepresence of liquid. A gel typically is obtained by use of a gellingagent. The term “polymer” used herein includes both homopolymer andcopolymer. A homopolymer is a polymer obtained by polymerizing one typeof monomer, whereas a copolymer is a polymer obtained by polymerizingtwo or more types of monomers. “Block copolymer” refers to a copolymerin which like monomer units occur in relatively long, alternatesequences on a chain.

The term “opaque” refers to the optical state of a medium whosemolecular aggregation is such that light cannot pass through. Therefore,light transmission through an opaque medium is substantially close tozero. On the other hand, the term “transparent” refers to the opticalstate of a medium through which light can pass through so that an objectcan be seen through it. As defined, the term “transparent” includes anyoptical state which is not opaque. A medium is considered transparenteven if only a small fraction of light passes through it. Thus, a cleargel and a translucent gel are considered transparent.

In some embodiments of the invention, a block copolymer capable offorming a three-dimensional network through physical cross-linking isused as the gelling agent. Suitable block copolymers include at leastone rigid block and one elastomeric block. The rigid blocks of a blockcopolymer form rigid domains through which physical cross-linking mayoccur. The physical cross-linking via these rigid domains yields acontinuous three-dimensional network. In the presence of heat, shear, orsolvent, the rigid domains soften and permit flow. Upon cooling, removalof shear, or solvent evaporation, the rigid domains reform and harden,locking the elastomeric network in place. Preferably, suitable blockcopolymers include diblock copolymers, triblock copolymers, radialpolymers, star polymers, multi-block copolymers, and mixtures thereof.

The amount of a gelling agent may range from about 0.2% to about 80% byweight, depending on the desired properties of the resulting gel.Preferably, a gelling agent is present in the gel from about 1% to about40% by weight. More preferably, a gelling agent is present in the gelabout 5% to about 20% by weight. In embodiments where both a diblockcopolymer and a triblock copolymer are used, the triblock copolymer mayrange from about 0.1% to about 10%, and the diblock copolymer from about1% to about 40%.

FIG. 1 illustrates the typical chain structure of a diblock copolymer.The polymer chain of the diblock copolymer includes two blocks: a rigidblock and an elastomeric block. The rigid block is represented bydiamonds. The elastomeric block is represented by circles. The rigidblock typically is composed of polystyrene, polyethylene,polyvinylchloride, phenolics, and the like; the elastomeric block may becomposed of, ethylene/butadiene copolymers, polyisoprene, polybutadiene,ethylene/propylene copolymers, ethylene-propylene/diene copolymers, andthe like. As such, suitable diblock copolymers include, but are notlimited to, styrene-ethylene/propylene copolymers,styrene-ethylene/butadiene copolymers, styrene-isoprene copolymers,styrene-butadiene copolymers.

FIG. 2 illustrates the chain structure of a triblock copolymer. Asillustrated in FIG. 2, each polymer chain includes two rigid blocks ateither end and a middle block which is elastomeric. This is a preferredtriblock copolymer structure, although a triblock copolymer with twoelastomeric end blocks and a rigid middle block also can be used.Suitable triblock copolymers include, but are not limited to,styrene-ethylene/propylene-styrene copolymers,styrene-ethylene/butadiene-styrene copolymers, styrene-isoprene-styrenecopolymers, and styrene-butadiene-styrene copolymers. Multi-blockcopolymers are similar to diblock copolymers or triblock copolymers,except that the multiple block copolymers include additional elastomericblocks and/or rigid blocks as illustrated in FIGS. 5A-5B.

In addition to the linear chain structure, branched homopolymers orcopolymers also may be used. FIGS. 3-4 illustrate the chain structure ofa radial polymer and a star polymer. It should be noted that one or morefunctional groups may be grafted onto the chain of any of theaforementioned polymers. In other words, any of the above polymers maybe modified by grafting. Suitable functional groups for grafting dependon the desired properties. For example, one or more ester groups, silanegroups, silicon-containing groups, maleic anhydride groups, acrylamidegroups, and acid groups may be grafted. In addition to grafting, theabove polymers may be hydrogenated to reduce unsaturation before theyare used as gelling agents.

Numerous commercially available block copolymers may be used inembodiments of the invention. For example, various grades of copolymerssold under the trade name of Kraton® from Shell Chemical Company can beused as a gelling agent. In addition, copolymers sold under the tradename of Vector® available from Dexco and Septon® from Kuraray also maybe used. U.S. Pat. No. 5,221,534, U.S. Pat. No. 5,578,089, and U.S. Pat.No. 5,879,694 disclose block copolymers which may be used in embodimentsof the invention, the disclosures of the three patents are incorporatedby reference in their entirety herein. Table 1 lists some commerciallyavailable block copolymers which may be used in embodiments of theinvention. It is noted that additional suitable block copolymers mayinclude, but are not limited to, polystyrene/polyester,polyether/polyamide, polyether/polyester, polyester/polyamide,polyether/polyurethane, polyester/polyurethane, poly(ethyleneoxide)/poly(propylene oxide), nylon/rubber, andpolysiloxane/polycarbonate. TABLE 1 Polystyrene Copolymer Block TypeContent(%) Comment Kraton ® SEP 28 hydrogenated diblock G 1702 Kraton ®SEP 37 hydrogenated diblock G 1701 Kraton ® SEP 7 star polymer G 1780Kraton ® SEBS 30 hydrogenated triblock G 1650 Kraton ® SEBS 30hydrogenated triblock G 1652 Kraton ® SEBS + SEP 31 triblock and diblockmixture D 1101 (85:15) Kraton ® SEBS + SEP 28 triblock + diblock (85:15)D 1102 Kraton ® SEBS + SEP 35 triblock + diblock (66:34) D 1133 Kraton ®SEBS 30 triblock (hydrogenated and FG 1901 functionally grafted with1.7% of maleic anhydride. Septon ® SEP 35 Hydrogenated diblock 1001Vector ® SEP 30 Unsaturated diblock 6030 Vector ® SBS 29 Unsaturatedtriblock 8550 Vector ® SBS 31 Unsaturated triblock 2518P Solprene ® SB40 Unsaturated diblock 1430Note:SEP denotes to styrene/ethylene/propylene copolymersSEBS denotes to styrene/ethylene/butylene/styrene copolymersSB denotes to styrene/butadiene copolymersSBS denotes to styrene-butadiene-styrene copolymers

It should be noted that block copolymers are not the only gelling agentsthat can be used in embodiments of the invention. Other types ofpolymers also may be used. Homopolymers which are capable of effectingstrong molecular interaction between polymeric chains can be used asgelling agents. One such example is butyl rubber, which can thicken oildue to its compatibility with oil and high molecular weight.Specifically, a polybutadiene polymer sold under the trademark ofSolprene® S200, which is available from GIRSA Industrias Negromex,S.A.de C.V. (INSA), can be used as a gelling agent. Other homopolymerscapable of forming hydrogen bonding may include polyamide, polyester,and polyolefin. Still another example is alkyl galactomannan, which iscapable of forming strong hydrogen bonding. Alkyl galactomannan isavailable from Hercules Incorporated under the trade name of N-HANCE®AG50 and AG200. Alkyl galactomannan is a polymer obtained by modifyingnatural products. It is especially effective in gelling esters andnaturally-occurring fats and oils.

In accordance with embodiments of the invention, a gelled estercomposition is obtained by gelling an ester compound with a triblockcopolymer, a star polymer, a radial polymer, a multi-block copolymer, ormixtures thereof. Optionally, the gelled ester composition may furtherinclude one or more diblock copolymers. When a diblock copolymer is usedalong with one of triblock copolymers, star polymers, radial polymers,and multi-block copolymers, the resulting gel composition issubstantially free of mineral oils. Suitable esters also may be gelledby alkyl galactomannan, polybutadiene, or other aforementioned polymers.

Any ester compound may be used in embodiments of the invention to obtaina gelled ester composition. An ester is defined as a compound thatincludes one or more carboxylate groups: R—COO—, where R is hydrogen,hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl, substituted alkyl,substituted phenyl, or other organic radicals. Suitable esters includemonoesters, diesters, triesters, etc. For example, one class of suitableesters that can be gelled is represented by the following formulas:

where n=1, 2, 3, and 4, and R₁ includes hydrogen, hydrocarbyl, phenyl,methoxyphenyl, alkylphenyl, substituted alkyl, and substituted phenyl;and R₂ includes hydrogen, hydrocarbyl, phenyl, methoxyphenyl,alkylphenyl, substituted alkyl, substituted phenyl, alkylene, phenylene,substituted alkylene, substituted phenylene, etc. It is noted that asuitable group for R₂ depends on whether n is 1,2,3, or 4.

Another class of suitable esters that may be gelled in embodiments ofthe invention is represented by the following formula:

where R₃ includes alkylene, phenylene, substituted alkylene, andsubstituted phenylene.

Still another class of suitable esters that may be gelled in embodimentsof the invention is represented by the following formula:

where R₄, R₅, and R₆ individually include alkylene, phenylene,substituted alkylene, and substituted phenylene; R₇, R₈, and R₉individually include hydrogen, hydrocarbyl, phenyl, methoxyphenyl,alkylphenyl, substituted alkyl, and substituted phenyl.

Preferred esters and their chemical formulas are listed in Table 2.TABLE 2 Chemical Name Chemical Formula Isononyl Isononanoate

Isopropyl Palmitate

C₁₂₋₁₅ alkyl benzoate

Myristyl Neopentanoate

Tridecyl Salicylate

Octyl Methoxycinnamate

Propylene glycol dicaprylate/caprate

Pentaerythrityl tetraisostearate

Trimethylolpropane triisostearate

Glyceryl isostearate

Diisononyl adipate

Trioctyldodecyl citrate

Other suitable esters include, but are not limited to, the followingcompounds: Acefylline Methylsilanol Mannuronate; Acetaminosalol;Acetylated Cetyl Hydroxyprolinate; Acetylated Glycol Stearate;Acetylated Sucrose Distearate; Acetylmethionyl Methylsilanol Elastinate;Acetyl Tributyl Citrate; Acetyl Triethyl Citrate; Acetyl TrihexylCitrate; Aleurites Moluccana Ethyl Ester; Allethrins; Allyl Caproate;Amyl Acetate; Amyl Benzoate; Amyl Salicylate; Arachidyl Behenate;Arachldyl Glycol Isostearate; Arachldyl Propionate; AscorbylDipalmitate; Ascorbyl Palmitate; Ascorbyl Stearate; Aspartame; BatylIsostearate; Batyl Stearate; Bean Palmitate; Behenyl Beeswax; BehenylBehenate; Behenyl Benzoate; Behenyl Erucate; Behenyl Isostearate;Behenyl/Isostearyl Beeswax; 1,2,4-Benzenetriacetate; Benzoin (StyraxBensoin) Gum; Benzoxiquine; Benzyl Acetate; Benzyl Benzoate; BenzylCinnamate; Benzyl Hyaluronate; Benzyl Laurate; Benzyl Nicotinate;Benzylparaben; Benzyl Salicylate; Beta-Sitosteryl Acetate; BoragoOfficinalis Ethyl Ester; Butoxyethyl Acetate; Butoxyethyl Nicotinate;Butoxyethyl Stearate; Butyl Acetate; Butyl Acetyl Ricinoleate; ButylBenzoate; Butyl Benzyl Phthalate; 2-t-Butylcyclohexyl Acetate; ButyleneGlycol Dicaprylate/Dicaprate; Butylene Glycol Montanate; Butyl Ester ofEthylene/MA Copolymer; Butyl Ester of PVM/MA Copolymer; ButylglucosideCaprate; Butyl Isostearate; Butyl Lactate; Butyl Methacrylate; ButylMyristate; Butyloctyl Beeswax; Butyloctyl Benzoate; ButyloctylCandelillate; Butyloctyl Oleate; Butyloctyl Salicylate; Butyl Oleate;Butyl PABA; Butylparaben; Butyl Phthalyl Butyl Glycolate; ButylStearate; Butyl Thioglycolate; Butyroyl Trihexyl Citrate; C18-36 AcidGlycol Ester; C12-20 Acid PEG-8 Ester; Caffeine Benzoate; CalciumPantetheine Sulfonate; Calcium Stearoyl Lactylate; C-18-28 AlkylAcetate; C18-38 Alkyl Beeswax; C30-50 Alkyl Beeswax; C20-40 AlkylBehenate; C18-38 Alkyl C24-54 Acid Ester; C-8 Alkyl Ethyl Phosphate;C18-38 Alkyl Hydroxystearoyl Stearate; C12-13 Alkyl Lactate; C12-15Alkyl Lactate; C12-13 Alkyl Octanoate; C12-15 Alkyl Octanoate; C12-15Alkyl Salicylate; C18-36 Alkyl Stearate; C20-40 Alkyl Stearate; C30-50Alkyl Stearate; C40-60 Alkyl Stearate; Caproyl Ethyl Glucoside;Capryloyl Salicylic Acid; Caprylyl Butyrate; Castor Oil Benzoate; C10-30Cholesterol/Lanosterol Esters; Cellulose Acetate; Cellulose AcetateButyrate; Cellulose Acetate Propionate; Cellulose Acetate PropionateCarboxylate; Ceteareth-7 Stearate; Cetearyl Behenate; CetearylCandelillate; Cetearyl Isononanoate; Cetearyl Octanoate; CetearylPalmitate; Cetearyl Stearate; Cetyl Acetate; Cetyl Acetyl Ricinoleate;Cetyl Caprylate; Cetyl C12-15-Pareth-9 Carboxylate; Cetyl GlycolIsostearate; Cetyl Isononanoate; Cetyl Lactate; Cetyl Laurate; CetylMyristate; Cetyl Octanoate; Cetyl Oleate; Cetyl Palmitate; Cetyl PCA;Cetyl PPG-2 Isodeceth-7 Carboxylate; Cetyl Ricinoleate; CetylRicinoleate Benzoate; Cetyl Stearate; C16-20 Glycol Isostearate; C20-30Glycol Isostearate; C14-16 Glycol Palmitate; Chimyl Isostearate; ChimylStearate; Chlorogenic Acids; Cholesteryl Acetate;Cholesteryl/Behenyl/Octyldodecyl Lauroyl Glutamate; CholesterylButyrate; Cholesteryl Dichlorobenzoate; Cholesteryl Hydroxystearate;Cholesteryl Isostearate; Cholesteryl Isostearyl Carbonate; CholesterylLanolate; Cholesteryl Macadamiate; Cholesteryl Nonanoate;Cholesteryl/Octyldodecyl Lauroyl Glutamate; Cholesteryl Oleate;Cholesteryl Stearate; Cinnamyl Acetate; Cinoxate; Citronellyl Acetate;Coco-Caprylate/Caprate; Coco Rapeseedate; Cocoyl Ethyl Glucoside; CopperPCA Methylsilanol; Corylus Avellanna Ethyl Ester; C12-15 Pareth-9Hydrogenated Tallowate; C11-15 Pareth-3 Oleate; C12-15 Pareth-12 Oleate;C11-15 Pareth-3 Stearate; C11-15 Pareth-12 Stearate; Decyl Isostearate;Decyl Myristate; Decyl Oleate; Decyl Succinate; DEDM HydantoinDilaurate; Dextrin Behenate; Dextrin Laurate; Dextrin Myristate; DextrinPalmitate; Dextrin Stearate; Diacetin; Dibutyl Adipate; Dibutyl Oxalate;Dibutyl Phthalate; Dibutyl Sebacate; Di-C12-15 Alkyl Adipate; Di-C12-15Alkyl Fumarate; Di-C12-13 Alkyl Malate; Di-C12-13 Alkyl Tartrate;Di-C14-15 Alkyl Tartrate; Dicapryl Adipate; Dicaprylyl Maleate;Dicetearyl Dimer Dilinoleate; Dicetyl Adipate; Dicetyl Thiodipropionate;Dicocoyl Pentaerythrilyl Distearyl Citrate; Diethoxyethyl Succinate;Diethyl Acetyl Aspartate; Diethylaminoethyl Cocoate; DiethylaminoethylPEG-5 Cocoate; Diethylaminoethyl PEG-5 Laurate; DiethylaminoethylStearate; Diethyl Aspartate; Diethylene Glycol Dibenzoate; DiethyleneGlycol Diisononanoate; Diethylene Glycol Dioctanoate; Diethylene GlycolDioctanoate/Diisononanoate; Diethyl Glutamate; Diethyl Oxalate; DiethylPalmitoyl Aspartate; Diethyl Phthalate; Diethyl Sebacate; DiethylSuccinate; Digalloyl Trioleate; Diglyceryl Stearate Malate; DihexylAdipate; Dihexyldecyl Lauroyl Glutamate; Dihydroabietyl Behenate;Dihydroabietyl Methacrylate; Dihydrocholesteryl Butyrate;Dihydrocholesteryl Isostearate; Dihydrocholesteryl Macadamiate;Dihydrocholesteryl Nonanoate; Dihydrocholesteryl Octyldecanoate;Dihydrocholesteryl Oleate; Dihydrogenated Palmoyl HydroxyethylmoniumMethosulfate; Dihydrogenated Tallow Phthalate; DihydrophytosterylOctyldecanoate; Dihydroxyethylamino Hydroxypropyl Oleate; DihydroxyethylSoyamine Dioleate; Diisobutyl Adipate; Diisobutyl Oxalate; DiisocetylAdipate; Diisodecyl Adipate; Diisopropyl Adipate; Diisopropyl DimerDilinoleate; Diisopropyl Methyl Cinnamate; Diisopropyl Oxalate;Diisopropyl Sebacate; Diisostearamidopropyl Epoxypropylmonium Chloride;Diisostearoyl Trimethylolpropane Siloxy Silicate; Diisostearyl Adipate;Diisostearyl Dimer Dilinoleate; Diisostearyl Fumarate; DiisostearylGlutarate; Diisostearyl Malte; Dilaureth-7 Citrate; DilaurylThiodipropionate; Dimethicone Copolyol Acetate; Dimethicone CopolyolAdipate; Dimethicone Copolyol Almondate; Dimethicone Copolyol Beeswax;Dimethicone Copolyol Behenate; Dimethicone Copolyol Benzoate;Dimethicone Copolyol Borageate; Dimethicone Copolyol Cocoa Butterate;Dimethicone Copolyol Dhupa Butterate; Dimethicone CopolyolHydroxystearate; Dimethicone Copolyol Isostearate; Dimethicone CopolyolKokum Butterate; Dimethicone Copolyol Lactate; Dimethicone CopolyolLaurate; Dimethicone Copolyol Mango Butterate; Dimethicone CopolyolMeadowfoamate; Dimethicone Copolyol Mohwa Butterate; DimethiconeCopolyol Octyldodecyl Citrate; Dimethicone Copolyol Olivate; DimethiconeCopolyol Phthalate; Dimethicone Copolyol Sal Butterate; DimethiconeCopolyol Shea Butterate; Dimethicone Copolyol Stearate; DimethiconeCopoly Undecylenate; Dimethiconol Beeswax; Dimethiconol Behenate;Dimethiconol Borageate; Dimethiconol Dhupa Butterate; DimethiconolFluoroalcohol Dillnoleic Acid; Dimethiconol Hydroxystearate;Dimethiconol Illipe Butterate; Dimethiconol Isostearate; DimethiconolKokum Butterate; Dimethiconol Lactate; Dimethiconol Mohwa Butterate;Dimethiconol Sal Butterate; Dimethiconol Stearate; Dimethyl Adipate;Dimethylaminoethyl Methacrylate; Dimethyl Brassylate; DimethylCystinate; Dimethyl Glutarate; Dimethyl Maleate; Dimethyl Oxalate;Dimethyl Phthalate; Dimethyl Succinate; Dimyristyl Tartrate; DimyristylThiodipropionate; Dinonoxynol-9 Citrate; Dioctyl Adipate; DioctylButamido Triazone; Dioctyl Dimer Dilinoleate; Dioctyldodeceth-2 LauroylGlutamate; Dioctyldodecyl Adipate; Dioctyldodecyl Dimer Dilinoleate;Dioctyldodecyl Dodecanedioate; Dioctyldodecyl Fluoroheptyl Citrate;Dioctyldodecyl Lauroyl Glutamate; Dioctyldodecyl Stearoyl DimerDilinoleate; Dioctydodecyl Stearoyl Glutamate; Dioctyl Fumarate; DioctylMalate; Dioctyl Maleate; Dioctyl Phthalate; Dioctyl Sebacate; DioctylSuccinate; Dioleoyl Edetolmonium Methosulfate; DipalmitoylHydroxyproline; Dipentaerythrityl Hexacaprylate/Hexacaprate;Dipentaerythrityl Hexaheptanoate/Hexacaprylate/Hexacaprate;Dipentaerythrityl Hexahydroxystearate; DipentaerythritylHexahydroxystearate/Stearate/Rosinate; DipentaerythritylHexaoctanoate/Behenate; DipentaerythritylPentahydroxystearate/Isostearate; Diphenyl Carbomethoxy AcetoxyNaphthopyran; Dipropyl Adipate; Dipropylene Glycol Caprylate;Dipropylene Glycol Dibenzoate; Dipropylene Glycol Salicylate; DipropylOxalate; Disodium Laureth-7 Citrate; Disodium PEG-5 LaurylcitrateSulfosuccinate; Disodium PEG-8 Ricinosuccinate; Disodium SuccinoylGlycyrrhetinate; Disodium 2-Sulfolaurate; Disteareth-2 LauroylGlutamate; Disteareth-5 Lauroyl Glutamate; Distearyl Thiodipropionate;Ditallowoylethyl Hydroxyethylmonium Methosulfate; Ditridecyl Adipate;Ditridecyl Dimer Dilinoleate; Ditridecyl Thiodipropionate; DodecylGallate; Erucyl Arachidate; Erucyl Erucate; Erucyl Oleate; EthiodizedOil; Ethoxydiglycol Acetate; Ethoxyethanol Acetate; Ethyl Acetate; EthylAlmondate; Ethyl Apricot Kernelate; Ethyl Arachidonate; Ethyl Aspartate;Ethyl Avocadate; Ethyl Benzoate; Ethyl Biotinate; EthylButylacetylaminopropionate; Ethyl Cinnamate; Ethyl Cyanoacrylate; EthylCycolhexyl Propionate; Ethyl Digydroxypropyl PABA; DethylDiisopropylcinnamate; Ethylene Brassylate; Ethylene Carbonate; EthyEster of Hydrolyzed Animal Protein; Ethyl Ester of Hydrolyzed Keratin;Ethyl Ester of Hydrolyzed Silk; Ethyl Ester of PVM/MA Copolymer; EthylFerulate; Ethyl Glutamate; Ethyl Isostearate; Ethyl Lactate; EthylLaurate; Ethyl Linoleate; Ethyl Linolenate; Ethyl Methacrylate; EthylMethoxycinnamate; Ethyl Methylphenylglycidate; Ethyl Minkate; EthylMorrhuate; Ethyl Myristate; Ethyl Nicotinate; Ethyl Oleate; EthylOlivate; Ethyl PABA Ethyl Palmitate; Ethylparaben; Ethyl PCA; EthylPelargonate; Ethyl Persate; Ethyl Phenylacetate; Ethyl Ricinoleate;Ethyl Serinate; Ethyl Stearate; Ethyl Thioglycolate; Ethyl Urocanate;Ethyl Wheat Germate; Ethyl Ximenynate; Etocrylene; Farnesyl Acetate;Galactonolactone; Galbanum (Ferula Galbaniflua) Oil; Gamma-Nonalacione;Geranyl Acetate; Glucarolactone; Glucose Glutamate; GlucosePentaacetate; Glucuronolactone; Glycereth-7 Benzoate; Glycereth-7Diisononanoate; Glycereth-8 Hydroxystearate; Glycereth-5 Lactate;Glycereth-25 PCA Isostearate; Glycereth-7 Triacetate; Glyceryl TriacetylHydroxystearate; Glyceryl Triacetyl Ricinoleate; Glycolamide Stearate;Glycol/Butylene Glycol Montanate; Glycol Catearate; Glycol Dibehenate;Glycol Dilaurate; Glycol Dioctanoate; Glycol Dioleate; GlycolDistearate; Glycol Ditallowate; Glycol Hydroxystearate; GlycolMontanate; Glycol Octanoate; Glycol Oleate; Glycol Palmitate; GlycolRicinoleate; Glycol Salicylate; Glycol Stearate; Glycol Stearate SE;Glycyrrhetinyl Stearate; Hexacosyl Glycol Isostearate; HexanediolBeeswax; Hexanediol Distearate; Hexanetriol Beeswax; HexyldecylBenzoate; Hexyldecyl Ester of Hydrolyzed Collagen; HexyldecylIsostearate; Hexyldecyl Laurate; Hexyldecyl Octanoate; HexyldecylOleate; Hexyldecyl Palmitate; Hexyldecyl Stearate; HexyldodecylSalicylate; Hexyl Isostearate; Hexyl Laurate; Hexyl Nicotinate;Homosalate; Hydrogenated Castor Oil Hydroxystearate; Hydrogenated CastorOil Isostearate; Hydrogenated Castor Oil Laurate; Hydrogenated CastorOil Stearate; Hydrogenated Castor Oil Triisostearate; HydrogenatedMethyl Abietate; Hydrogenated Rosin; Hydroquinone PCA; HydroxycetylIsostearate; Hydroxyoctacosanyl Hydroxystearate; Inositol Hexa-PCA;Iodopropynyl Butylcarbamate; Isoamyl Acetate; Isoamyl Laurate; Isoamylp-Methoxycinnamate; Isobutyl Acetate; Isobutylated Lanolin Oil; IsobutylBenzoate; Isobutyl Myristate; Isobutyl Palmitate; Isobutylparaben;Isobutyl Pelargonate; Isobutyl Stearate; Isobutyl Tallowate;Isoceteareth-8 Stearate; Isoceteth-10 Stearate; Isocetyl Behenate;Isocetyl Isodecanoate; Isocetyl Isostearate; Isocetyl Laurate; IsocetylLinoleoyl Stearate; Isocetyl Myristate; Isocetyl Octanoate; IsocetylPalmitate; Isocetyl Salicylate; Isocetyl Stearate; Isocetyl StearoylStearate; Isodeceth-2 Cocoate; Isodecyl Citrate; Isodecyl Cocoate;Isodecyl Hydroxystearate; Isodecyl Isononanoate; Isodecyl Laurate;Isodecyl Myristate; Isodecyl Neopentanoate; Isodecyl Octanoate; IsodecylOleate; Isodecyl Palmitate; Isodecylparaben; Isodecyl Salicylate;Isodecyl Stearate; Isohexyl Laurate; Isohexyl Neopentanoate; IsohexylPalmitate; Isolauryl Behenate; Isomerized Jojoba Oil; Isononyl Ferulate;Isooctyl Thioglycolate; Isopropyl Acetate; Isopropyl Arachidate;Isopropyl Avocadate; Isopropyl Behenate; Isopropyl Benzoate;Isopropylbenzyl Salicylate; Isopropyl Citrate; Isopropyl C12-15-Pareth-9Carboxylate; Isopropyl Hydroxystearate; Isopropyl Isostearate; IsopropylJojobate; Isopropyl Lanolate; Isopropyl Laurate; Isopropyl Linoleate;Isopropyl Myristate; Isopropyl Oleate; Isopropylparaben; IsopropylPPG-2-Isodeceth-7 Carboxylate; Isopropyl Ricinoleate; Isopropyl Sorbate;Isopropyl Stearate; Isopropyl Tallowate; Isopropyl Thioglycolate;Isosorbide Laurate; Isosteareth-10 Stearate; Isostearyl Avocadate;Isostearyl Behenate; Isostearyl Benzoate; Isostearyl Erucate; IsostearylIsononanoate; Isostearyl Isostearate; Isostearyl Isostearoyl Stearate;Isostearyl Lactate; Isostearyl Laurate; Isostearyl Myristate; IsostearylNeopentanoate; Isostearyl Octanoate; Isostearyl Palmitate; IsostearylStearoyl Stearate; Isotridecyl Isononanoate; Isotridecyl Laurate;Isotridecyl Myristate; Jojoba (Buxus Chinensis) Oil; Jojoba Esters;Kojic Dipalmitate; Laneth-9 Acetate; Laneth-10 Acetate; Laneth-4Phosphate; Lanolin Linoleate; Lanolin Ricinoleate; Laureth-2 Acetate;Laureth-2 Benzoate; Laureth-6 Citrate; Laureth-7 Citrate; Laureth-2Octanoate; Laureth-7 Tartrate; Lauroyl Ethyl Glucoside; Lauroyl LactylicAcid; Lauryl Behenate; Lauryl Cocoate; Lauryl Isostearate; LaurylLactate; Lauryl Methacrylate; Lauryl Myristate; Lauryl Octanoate; LaurylOleate; Lauryl Palmitate; Lauryl Stearate; Linalyl Acetate; LinoleylLactate; Madecassicoside; Mannitan Laurate; Mannitan Oleate; MenthylAcetate; Menthyl Anthranilate; Menthyl Lactate; Menthyl PCA; MenthylSalicylate; Methoxyisopropyl Acetate; Methoxy-PEG-7 Rutinyl Succinate;Methyl Acetate; Methyl Acetyl Ricinoleate; Methyl Anthranilate; MethylBehenate; Methyl Benzoate; Methyl Caproate; Methyl Caprylate; MethylCaprylate/Caprate; Methyl Cocoate; 6-Methyl Coumarin; MethylDehydroabietate; Methyl Dihydroabietate; Methyldihydrojasmonate; MethylGluceth-20 Benzoate; Methyl Glucose Dioleate; Methyl GlucoseIsostearate; Methyl Glucose Laurate; Methyl GlucoseSesquicaprylate/Sesquicaprate; Methyl Glucose Sesquicocoate; MethylGlucose Sesquiisostearate; Methyl Glucose Sesquilaurate; Methyl GlucoseSesquioleate; Methyl Glucose Sesquistearate; Methyl Glycyrrhizate;Methyl Hydrogenated Rosinate; Methyl Hydroxystearate; MethylIsostearate; Methyl Laurate; Methyl Linoleate; Methyl3-Methylresorcylate; Methyl Myristate; Methyl Nicotinate; Methyl Oleate;Methyl Palmate; Methyl Palmitate; Methylparaben; Methyl Pelargonate;Methyl Ricinoleate; Methyl Rosinate; Methyl Salicylate; MethylsilanolAcetylmethionate; Methylsilanol Carboxymethyl Theophylline;Methylsilanol Carboxymethyl Theophylline Alginate; MethylsilanolHydroxyproline; Methylsilanol Hydroxyproline Aspartate; MethylsilanolMannuronate; Methylsilanol PCA; Methyl Soyate; Methyl Stearate; MethylThioglycolate; Monosaccharide Lactate Condensata; Myreth-3 Caprate;Myreth-3 Laurate; Myreth-2 Myristate; Myreth-3 Myristate; Myreth-3Octanoate; Myreth-3 Palmitate; Myristoyl Ethyl Glucoside; MyristoylLactylic Acid; Myristyl Isostearate; Myristyl Lactate; MyristylLignocerate; Myristyl Myristate; Myristyl Octanoate; MyristylPropionate; Myristyl Salicylate; Myristyl Stearate; Neopentyl GlycolDicaprate; Neopentyl Glycol Dicaprylate/Dicaprate; Neopentyl GlycolDicaprylate/Dipelargonate/Dicaprate; Neopentyl Glycol Diheptanoate;Neopentyl Glycol Diisostearate; Neopentyl Glycol Dilaurate; NeopentylGlycol Dioctanoate; Nonyl Acetate; Nopyl Acetate; Octacosanyl GlycolIsostearate; Octocrylene; Octyl Acetoxystearate; Octyl Benzoate; OctylCaprylate/Caprate; Octyl Cocoate; Octyldecyl Oleate; OctyldodecylBehenate; Octyldodecyl Benzoate; Octyldodecyl Erucate; OctyldodecylHydroxystearate; Octyldodecyl Isostearate; Octyldodecyl Lactate;Octyldodecyl Lanolate; Octyldodecyl Meadowfoamate; OctyldodecylMyristate; Octyldodecyl Neodecanoate; Octyldodecyl Neopentanoate;Octyldodecyl Octanoate; Octyldodecyl Octyldodecanoate; OctyldodecylOleate; Octyldodecyl Olivate; Octyldodecyl Ricinoleate; OctyldodecylStearate; Octyldodecyl Steroyl Stearate; Octyl Gallate; OctylHydroxystearate; Octyl Hydroxystearate Benzoate; Octyl Isononanoate;Octyl Isopalmitate; Octyl Isostearate; Octyl Laurate; Octyl LinoleaylStearate; Octyl Methoxycinnamate; Octyl Myristate; Octyl Neopentanoate;Octyl Octanoate; Octyl Oleate; Octyl Palmitate; Octyl PCA; OctylPelagonate; Octyl Salicylate; Octyl Stearate; Oleoyl Ethyl Glucoside;Oleth-2 Benzoate; Oleyl Acetate; Oleyl Arachidate; Oleyl Erucate; OleylEthyl Phosphate; Oleyl Lactate; Oleyl Lanolate; Oleyl Linoleate; OleylMyristate; Oleyl Oleate; Oleyl Phosphate; Oleyl Stearate; Oryzanol;Ozonized Jojoba Oil; Palmitoyl Carniline; Palmitoyl Inulin; PalmitoylMyristyl Serinate; Pantethine; Panthenyl Ethyl Ester Acetate; PanthenylTriacetate; PCA Glyceryl Oleate; Pea Palmitate; PEG-18 Castor OilDioleate; PEG-5 DEDM Hydantoin Oleate; PEG-15 DEDM Hydantoin Stearate;PEG-30 Dipolyhydroxystearate; PEG-20 Hydrogenated Castor OilIsostearate; PEG-50 Hydrogenated Castor Oil Isostearate; PEG-20Hydrogenated Castor Oil Triisostearate; PEG-20 Mannitan Laurate; PEG-20Methyl Glucose Distearate; PEG-80 Methyl Glucose Laurate; PEG-20 MethylGlucose Sesquicaprylate/Sesquicaprate; PEG-20 Methyl GlucoseSesquilaurate; PEG-5 Oleamide Dioleate; PEG-150 PentaerythritylTetrastearate; PEG-3/PPG-2 Glyceryl/SorbitolHydroxystearate/Isostearate; PEG-4 Proline Linoleate; PEG-4 ProlineLinolenate; PEG-8 Propylene Glycol Cocoate; PEG-55 Propylene GlycolOleate; PEG-25 Propylene Glycol Stearate; PEG-75 Propylene GlycolStearate; PEG-120 Propylene Glycol Stearate; PEG-40 Sorbitol Hexaoleate;PEG-50 Sorbitol Hexaoleate; PEG-30 Sorbitol Tetraoleate Laurate; PEG-60Sorbitol Tetrastearate; PEG-5 Tricapryl Citrate; PEG-5 Tricetyl Citrate;PEG-5 Trilauryl Citrate; PEG-5 Trimethylolpropane Trimyristate; PEG-5Trimyristyl Citrate; PEG-5 Tristearyl Citrate; PEG-6 Undecylenate;Pentadecalacione; Pentaerythrityl Dioleate; Pentaerythrityl Distearate;Pentaerythrityl Hydrogenated Rosinate; PentaerythritylIsostearate/Caprate/Caprylate/Adipate; Pentaerythrityl Rosinate;Pentaerythrityl Stearate; PentaerythritylStearate/Caprate/Caprylate/Adipate; PentaerythritylStearate/Isostearate/Adipate/Hydroxystearate; PentaerythritylTetraabietate; Pentaerythrityl Tetraacetate; PentaerythritylTetrabehenate; Pentaerythrityl Tetrabenzoate; PetaerythritylTetracaprylate/Tetracaprate; Pentaerythrityl Tetracocoate;Pentaerythrityl Tetraisononanoate; Pentaerythrityl Tetralaurate;Pentaerythrityl Tetramyristate; Pentaerythrityl Tetraoctanoate;Pentaerythrityl Tetraoleate; Pentaerythrityl Tetrapelargonate;Petaerythrityl Tetrastearate; Pentaerythrityl Trioleate; PhenethylAcetate; Phenolphthalein; Phenoxyethylparaben; Phenyl Benzoate;Phenylparaben; Phenyl Salicylate; Phylosteryl Macadamiate; Poloxamer 105Benzoate; Poloxamer 182 Dibenzoate; Polycaprolactone;Polydimethylaminoethyl Methacrylate; Polyethylacrylate;Polyethylglutamate; Polyethylmethacrylate; Polymethyl Acrylate;Polymethylglutamate; Polysorbate 80 Acetate; Polyvinyl Acetate;Potassium Butylparaben; Potassium Deceth-4 Phosphate; PotassiuEthylparaben; Potassium Methylparaben; Potassium Propylparaben; PPG-2Isoceleth-20 Acetate; PPG-14 Laureth-60 Alkyl Dicarbamate; PPG-20 MethylGlucose Ether Acetate; PPG-20 Methyl Glucose Ether Distearate; PPG-2Myristyl Ether Propionate; PPG-14 Palmeth-60 Alkyl Dicarbamate; PPG-15Steryl Ether Benzoate; Pregnenolone Acetate; Propyl Acetate; PropylBenzoate; Propylene Carbonate; Propylene Glocol Alginate; PropyleneGlycol Behenate; Propylene Glycol Caprylate; Propylene Glycol Ceteth-3Acetate; Propylene Glycol Ceteth-3 Propionate; Propylene Glycol Citrate;Propylene Glycol Cocoate; Propylene Glycol Dicaprate; Propylene GlycolDicaproate; Propylene Glycol Dicaprylate; Propylene Glycol Dicocoate;Propylene Glycol Diisononanoate; Propylene Glycol Diisostearate;Propylene Glycol Dilaurate; Propylene Glycol Dioctanoate; PropyleneGlycol Dioleate; Propylene Glycol Dipelargonate; Propylene GlycolDistearate; Propylene Glycol Diundecanoate; Propylene GlycolHydroxystearate; Propylene GlycolIsoceteth-3 Acetate; Propylene GlycolIsostearate; Propylene Glycol Laurate; Propylene Glycol Linoleate;Propylene Glycol Linolenate; Propylene Glycol Myristate; PropyleneGlycol Myristyl Ether Acetate; Propylene Glycol Oleate; Propylene GlycolOleate SE; Propylene Glycol Ricinoleate; Propylene Glycol Soyate;Propylene Glycol Stearate; Propylene Glycol Stearate SE; Propyl Gallate;Propylparaben; Pyricarbate; Pyridoxine Dicaprylate; PyridoxineDilaurate; Pyridoxine Dioctenoate; Pyridoxine Dipalmitate; PyridoxineGlycyrrhetinate; Pyridoxine Tripalmitate; Raffinose Myristate; RaffinoseOleate; Resorcinol Acetate; Retinyl Acetate; Retinyl Linoleate; RetinylPalmitate; Retinyl Propionate; Riboflavin Tetraacetate; Ribonolaclone;Rosin Acrylate; Siloxanetriol Phytate; Silybum Marianum Ethyl Ester;Sodium Behenoyl Lactylate; Sodium Butylparaben; Sodium CaproylLactylate; Sodium Cocoyl Lactylate; Sodium Dilaureth-7 Citrate; SodiumEthylparaben; Sodium Ethyl 2-Sulfolaurate; Sodium Isostearoyl Lactylate;Sodium Laureth-7 Tartrate; Sodium Lauroyl Lectylate; SodiumMethylparaben; Sodium Methyl 2-Sulfolaurate; Sodium Oleoyl Lactylate;Sodium Panteheine Sulfonate; Sodium Phytate; Sodium Propylparaben;Sodium Stearoyl Lactylate; Sorbeth-2 Cocoate; Sorbeth-6 Hexastearate;Sorbeth-3 Isostearate; Sorbityl Acetate; Soybean Palmitate; Soy SterolAcetate; Stearamide DEA-Distearate; Stearamide DIBA-Stearate; StearamideMEA-Stearate; Steareth-5 Stearate; Stearoyl Lactylic Acid; StearylAcetate; Stearyl Acetyl Glutamate; Stearyl Beeswax; Stearyl Behenate;Stearyl Benzoate; Stearyl Caprylate; Stearyl Citrate; Stearyl Erucate;Stearyl Glycol Isostearate; Stearyl Glycyrrhetinate; Stearyl Heptanoate;Stearyl Lactate; Stearyl Linoleate; Stearyl Octanoate; Stearyl Stearate;Stearyl Stearoyl Stearate; Sucrose Acetate Isobutyrate; SucroseBenzoate; Sucrose Cocoate; Sucrose Dilaurate; Sucrose Distearate;Sucrose Laurate; Sucrose Myristate; Sucrose Octaacetate; Sucrose Oleate;Sucrose Palmitate; Sucrose Polybehenate; Sucrose Polycottonseedate;Sucrose Polylaurate; Sucrose Polylinoleate; Sucrose Polypalmate; SucrosePolysoyate; Sucrose Polystearate; Sucrose Ricinoleate; Sucrose Stearate;Sucrose Tetrastearate Triacetate; Sucrose Tribehenate; SucroseTristearate; Tallowoyl Ethyl Glucoside; Tannic Acid; TEA-LauroylLactylate; Telmesteine; Terpineol Acetate; Tetrabutyl PhenylHydroxybenzoate; Tetradecyleicosyl Stearate; Tetrahexyldecyl Ascorbate;Tetrahydrofurfuryl Acetate; Tetrahydrofurfuryl Ricinoleate;Tocophersolan; Tocopheryl Acetate; Tocopheryl Linoleate; TocopherylLinoleate/Oleate; Tocopheryl Nicotinate; Tocopheryl Succinate; TributylCitrate; Tri-C12-13 Alkyl Citrate; Tri-C14-15 Alkyl Citrate; TricaprylylCitrate; Tridecyl Behenate; Tridecyl Cocoate; Tridecyl Erucate; TridecylIsononanoate; Tridecyl Laurate; Tridecyl Myristate; TridecylNeopentanoate; Tridecyl Octanoate; Tridecyl Stearate; Tridecyl StearoylStearate; Tridecyl Trimellitate; Triethyl Citrate; Triethylene Glycolhydrogenated Rosinate; Trihexyldecyl Citrate; Triisocetyl Citrate;Triisopropyl Citrate; Triisopropyl Trilinoleate; Triisostearyl Citrate;Triisostearyl Trilinoleate; Trilactin; Trilauryl Citrate;Trimethylolpropane Tricaprylate/Tricaprate; TrimethylolpropaneTricocoate; Trimethylolpropane Trilaurate; TrimethylalpropaneTrioctanoate; Trimethylolpropane Tristearate; Trimethyl PentanylDiisobutyrate; Trioctyl Citrate; Trioctyldodecyl Borate; TrictylTrimellitate; Trioleyl Citrate; TriPABA Panthenol; Tripropylene GlycolCitrate; Tristearyl Citrate; Tristearyl Phosphate; Vinyl Acetate; andYeast Palmitate.

In addition to esters, alcohols may be gelled to form a gelled alcoholby using a diblock copolymer, a triblock copolymer, a star polymer, aradial polymer, a multi-block copolymer, and mixtures thereof. Suitablealcohols also may be gelled by alkyl galactomannan, polybutadiene, orother aforementioned polymers. Any alcohols as represented by thefollowing formula may be gelled in embodiments of the invention.R—OHwhere R represents any organic functional group which includes, but isnot limited to, hydrocarbyl, phenyl, methoxyphenyl, and alkylphenyl,substituted alkyl, substituted phenyl, etc. Preferred alcohols include,but are not limited to, isostearyl alcohol, and octyl dodecanol. Othersuitable alcohols include, but are not limited to, Abietyl Alcohol;Arachidyl Alcohol; Batyl Alcohol; Behenyl Alcohol; Benzyl Alcohol;Bishydroxyethyl Biscetyl Malonamide; Borneol;2-t-Butylcyclohexyloxybutanol; Butyloctanol; C9-11 Alcohol; C12-13Alcohol; C12-15 Alcohol; C12-16 Alcohol; C14-15 Alcohol; C-20-40Alcohols; C30-50 Alcohols; C40-60 Alcohols; C18-38 Alkyl HydroxystearoylStearate; Camphylcyclohexanol; Caproyl Sphingosine; Caprylic Alcohol;Caprylyl Glycol; CD Alcohol 19; Ceramide 1; Ceramide 2; Cermide 3;Ceramide 4; Ceramide 5; Ceramide 1A; Ceramide 6 II; Cetearyl Alcohol;Cetyl Alcohol; Cetylarachidol; Cetyl Glycol; C9-13 Fluoroalcohol; C14-18Glycol; C15-18 Glycol; C18-30 Glycol; C20-30 Glycol; Chimyl Alcohol;Chlorphenesin; Choleclciferol; Cholesterol; Cinnamyl Alcohol;Citronellol; Coconut Alcohol; Decyl Alcohol; Decyltetradecanol;7-Dehydrocholesterol; Dichlorobenzyl Alcohol; Dihydrocholesterol;Dihydrolanosterol; Dihydroxyacetone; Dihydroxyethylamino HydroxypropylOleate; 2,6-Dimethyl-7-Octen-2-ol; Dimethyl Octynediol; DimethylPhenylpropanol; Dodecylhexadecanol; Dodecyltetradecanol; Ergocalciferol;Ethyl Hexanediol; Farnesol; Galactonolactone; Geraniol; GlycyrrhetinicAcid; Glycyrrhizic Acid; Heptylundecanol; Hexacosyl Glycol; 3-Hexenol;Hexyl Alcohol; Hexyldecanol; Hexyldecyloctadecanol; Hexylene Glycol;Hinokitiol; Hydroabietyl Alcohol; Hydrogenated EthylbicycloneplaneGuaiacol; Hydrogenated Tallow Alcohol; Hydrolyzed Glycyrrhizinate;Hydroxycapric Acid; Hydroxycaproyl Phytosphingosine; HydroxycaprylicAcid; Hydroxycapryloyl Phytosphingosine; Hydroxyethyl PalmitylOxyhydroxypropyl Palmitamide; Hydroxylauric Acid; HydroxylauroylPhytosphingosine; Hydroxymethyl Dioxoazabicyclooctane; Hydroxyproline;Hydroxystearyl Cetyl Ether; Jojoba Alcohol; Lactoyl Phytosphingosine;Lanolin Alcohol; Lauryl Alcohol; Lauryl Glycol; Linalool;p-Menthan-7-ol; Menthol; Menthone Glycerin Acetal;3-Methylamino-4-Nitrophenoxyethanol; Methyl Glycyrrhiziate;Methylsilanol Hydroxyproline; Myricyl Alcohol; Myristyl Alcohol;Nicotinyl Alcohol; Nicotinyl Tartrate; 3-Nitro-4-Aminophenoxyethanol;Octacosanyl Glycol; Octoxyglycerin; Octoxyglyceryl Behenate;Octyldodecanol; 2-Oeamido-1,3-Octadecanediol; Oleyl Alcohol; PalmAlcohol; Palm Kernel Alcohol; Palmitamidohexadecanediol; Panthenol;Panthenyl Ethyl Ether; Panthenyl Hydroxypropyl Steardimonium Chloride;Pentadecyl Alcohol; Pentylene Glycol; Phenethyl Alcohol; Phenoxyethanol;Phenoxyisopropanol; Phenylisohexanol; Phenylpropanol; Phytosphingosine;Polyvinyl Alcohol; Propanediol; Propyl Alcohol; Propylene Glycol;Pyridoxine Glycyrrhetinate; Retinol; Ribonolactone;N-Stearoyl-Dihydroshingosine; Stearyl Alcohol; Stearyl Glycol; TallowAlcohol; Terpineol; Tetradecyleicosanol; Tetradecyloctadecanol;Tetrahydrofurfuryl Alcohol; Tetramethyl Cyclopentene Butenol;Tetramethyl Decynediol; Tridecyl Alcohol; Trimethylhexanol; Troxerutin;Undeceth-3; Undecylenyl Alcohol; and Undecylpentadecanol.

Numerous ethers also may be gelled to form gelled ether compositions byusing a diblock copolymer, triblock copolymer, star polymer, radialpolymer, multi-block copolymer, or mixtures thereof. Suitable ethersalso may be gelled by alkyl galactomannan, polybutadiene, or otheraforementioned polymers. Generally, an ether compound is represented bythe following formula:R—O—R′where R and R′ individually include, but are not limited to,hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl, substituted alkyl,substituted phenyl, etc. Preferred ethers include, but are not limitedto, dicarylyl ether and octyl methoxycinnamate. Dicarylyl either isrepresented by the following chemical formula.C₈H₁₇—O—C₈H₁₇

Other suitable ethers include, but are not limited to, Anethole;p-Anisic Acid; Batyl Alcohol; Batyl Isostearate; Batyl Stearate;Benzylhemiformal; 1,3-Bis-(2,4-Diaminophenoxy) propane; ButoxyethylAcetate; Butoxyethyl Nicotinate; Butoxyethyl Stearate; Butoxypropanol;2-t-Butylcyclohexyloxybutanol; Butyl Glucoside; Butylglucoside Caprate;Butyl Methoxydibenzoylmethane; Caprylyl/Capryl Glucoside; Capsaicin;Carboxymethyl Chitin; Carboxymethyl Chitosan Succinamide; CarboxymethylDextran; Cetearyl Glucoside; Cetyl Glyceryl Ether; Cetyl-PG HydroxyethylDecanamide; Cetyl-PG Hydroxyethyl Palmitamide; Chimyl Alcohol; ChimylIsostearate; Chimyl Stearate; Chlorphenesin; Cinoxate; CocamidopropylLauryl Ether; Coceth-4 Glucoside; Coco-Glucoside; DibenzylideneSorbitol; Dicetyl Ether; Dichlorophenyl Imidazoidioxolan; DimethiconeCopolyol Butyl Ether; Dimethicone Copolyol Ethyl Ether; DimethiconeCopolyol Methyl Ether; Dimethyl Hexahydronaphthyl DihydroxymethylAcetal; Dimethyl Isosorbide; Dioleyl Tocopheryl Methylsilanol; Diosmine;Disodium Cetyl Phenyl Ether Disulfonate; Disodium Decyl Phenyl EtherDisulfonate; Disodium Lauryl Phenyl Ether Disulfonate; Distarch GlycerylEther; Distearyl Ether; Ethoxydiglycol Acetate; EthoxyheptylBicyclooctanone; 7-Ethylbicyclooxazolidine; Ethyl Methoxycinnamate;Ethyl Methylphenylglycidate; Ethyl Phenethyl Acetal; Eucalyptol;Eugenol; Ferulic Acid; Glyceryl Octanoate Dimethoxycinnamate;Glycofurol; Hexamethylindanopyran; Hexamidine; Hexamidine Diparaben;Hexamidine Paraben; Hydrogenated Ethylbicycloheptane Guaiacol;p-Hydroxyanisole; Hydroxydecyl Maltitol; Hydroxyethyl GlycerylOleate/Stearate; Hydroxyethyl Palmityl Oxyhydroxypropyl Palmitamide;Hydroxyethyl Sorbitol; Hydroxymethoxybenzyl Pelargonamide; HydroxypropylStarch Phosphate; Hydroxystearyl Cetyl Ether; Isobutyl MethylTetrahydropyranol; Isoeugenol; Isolongifolene Epoxide; IsopropylHydroxycetyl Ether; Isostearamidopropyl Epoxypropyl Dimonium Chloride;Isostearyl Glyceryl Ether; Isostearyl Glyceryl Pentaerythrityl Ether;Lauryl Polyglyceryl-6 Cetearyl Glycol Ether; Melatonin; MenthoneGlycerin Acetal; Methoxylndane; Methoxyisopropyl Acetate;Methoxymethylbutanol; Methoxypropylgluconamide; Methylal; Ethyl Eugenol;Methyl Hexyl Ether; Methylsilanol Ascorbate; Myristyl-PG HydroxyethylDecanamide; 4-Nitroguaiacol; Octoxyglycerin; Octoxyglyceryl Behenate;Octoxyglyceryl Palmitate; Octyl Glyceryl Palmitate; Oleyl GlycerylEther; Panthenyl Ethyl Ether; Panthenyl Ethyl Ether Acetate; PanthenylHydroxypropyl Steardimonium Chloride; PEG-3 2,2-Di-p-Phenylenediamine;PEG-4 Ditallow Ether; PEG-150 Pentaerythrityl Tetrastearate;p-Phenetidine; Phenoxzyethanol; Phenoxyethylparaben; Phenoxyisopropanol;Polyglycerin-3; Polyglycerin-4; Polyglycerin-6; Polyglycerin-10;Polyglyceryl-3 Cetyl Ether; Polyglyceryl-3 Decyltetradecyl Ether;Polyglyceryl-3 Hydroxylauryl Ether; Polyglyceryl-2 Lanolin AlcoholEther; Polyglyceryl-4 Lauryl Ether; Polyglyceryl-2 Oleyl Ether;Polyglyceryl-4 Oleyl Ether; Polyglyceryl Sorbitol; Polyvinyl MethylEther; Polyvinyl Stearyl Ether; PPG-9 Diglyceryl Ether; PPG-1-PEG-9Lauryl Glycol Ether; Propylene Glycol Myristyl Ether; Quassin;Silanetriol Trehalose Ether; TEA-Lauryl Ether;Tetrahydrodiferuloyimethane; Thiodiglycol; Triclosan; TriethyleneGlycol; Trihydroxypalmitamidohydroxypropyl Myristyl Ether;Trimethoxycaprylylsilane; Troxerutin; and Ubiquinone.

Embodiments of the invention may also be used to obtain gelled naturalproducts, such as naturally-occurring fats and oils.“Naturally-occurring fats and oils” often refer to the glyceryl estersof fatty acids (i.e., triglycerides) normally found in animal or planttissues, including those which have been hydrogenated to reduce oreliminate unsaturation. Natually occurring fats and oils includevegetable oils. Selected naturally-occurring fats and oils arerepresented by the following formula:

where R, R′ and R″ may be the same or different fatty acid radicals.

Suitable naturally-occurring fats and oils that may be gelled by using adiblock copolymer, triblock copolymer, star polymer, radial polymer,multi-block copolymer or mixtures thereof Suitable naturally-occurringfats and oils also may be gelled by alkyl galactomannan, polybutadiene,or other aforementioned polymers. Examples of the suitablenaturally-occurring fats and oils include, but are not limited to,Adansonla Digitata Oil; Apricot (Prunus Armeniaca) Kernel Oil; ArganiaSpinosa Oil; Argemone Mexicana Oil; Avocado (Persea Gratissima) Oil;Babassu (Orbignya Olelfera) Oil; Balm Mint (Melissa Officinalis) SeedOil; Bitter Almond (Prunus Amygdalus Amara) Oil; Bitter Cherry (PrunusCerasus) Oil; Black Currant (Ribes Nigrum) Oil; Borage (BoragoOfficinalis) Seed Oil; Brazil (Bertholletia Excelsa) Nut Oil; Burdock(Arctium Lappa) Seed Oil; Butter; C12-18 Acid Triglyceride; CalophyllumTacamahaca Oil; Camellia Kissi Oil; Camellia Oleifera Seed Oil; CanolaOil; Caprylic/Capric/Lauric Triglyceride; Caprylic/Capric/LinoleicTriglyceride; Caprylic/Capric/Myristic/Stearic Triglyceride;Caprylic/Capric/Stearic Triglyceride; Caprylic/Capric Triglyceride;Caraway (Carum Carvi) Seed Oil; Carrot (Daucus Carota Sativa) Oil;Cashew (Anacardium Occidentale) Nut Oil; Castor Oil Benzoate; Castor(Ricinus Communis) Oil; Cephalins; Chaulmoogra (Taraktogenos Kurzii)Oil, Chia (Salvia Hispanica) Oil; Cocoa (Theobrama Cocao) Butter;Coconut (Cocos Nucifera) Oil; Cod Liver Oil; Coffee (Coffea Arabica)Oil; Corn (Zea Mays) Germ Oil; Corn (Zea Mays) Oil; Cottonseed(Gossypium) Oil; C10-18 Triglycerides; Cucumber (Cucumis Sativus) Oil;Dog Rose (Rosa Canina) Hips Oil; Egg Oil; Emu Oil; Epoxidized SoybeanOil; Evening Primrose (Oenothera Biennis) Oil; Fish Liver Oil; GevuinaAvellana Oil; Glyceryl Triacetyl Hydroxystearate; Glyceryl TriacetylRicinoleate; Glycolipids; Glycosphingolipids; Goat Butter; Grape (VitisVinifera) Seed Oil; Hazel (Croylus Americana) Nut Oil; Hazel (CorylusAveilana) Nut Oil; Human Placental Lipids; Hybrid Safflower (CarthamusTinctorius) Oil; Hybrid Sunflower (Helianthus Annuus) Seed Oil;Hydrogenated Canola Oil; Hydrogenated Castor Oil; Hydrogenated CastorOil Laurate; Hydrogenated Castor Oil Triisostearate; HydrogenatedCoconut Oil; Hydrogenated Cottonseed Oil; Hydrogenated C12-18Triglycerides; Hydrogenated Fish Oil; Hydrogenated Lard; HydrogenatedMenhaden Oil; Hydrogenated Milk Lipids; Hydrogenated Mink Oil;Hydrogenated Olive Oil; Hydrogenated Orange Roughy Oil; HydrogenatedPalm Kernel Oil; Hydrogenated Palm Oil; Hydrogenated Peanut Oil;Hydrogenated Rapeseed Oil; Hydrogenated Shark Liver Oil; HydrogenatedSoybean Oil; Hydrogenated Tallow; Hydrogenated Vegetable Oil; IsatisTinctoria Oil; Job's Tears (Coix Lacryma-Jobi) Oil; Kiwi (ActinidiaChinensis) Seed Oil; Kukui (Aleurites Moluccana) Nut Oil; Lard;Lauric/Palmitic/Oleic Triglyceride; Linseed (Linum Usitatissiumum) Oil;Lupin (Lupinus Albus) Oil; Macadamia Ternifolia Nut Oil; MaleatedSoybean Oil; Mango (Mangifera Indica) Seed Oil; Marmot Oil; Meadowfoam(Limnanthes Alba) Seed Oil; Menhaden Oil; Milk Lipids; Mink Oil; MoringaPterygosperma Oil; Mortierella Oil; Musk Rose (Rosa Moschata) Seed Oil;Neatsfoot Oil; Neem (Melia Azadirachta) Seed Oil; Oat (Avena Sativa)Kernel Oil; Oleic/Linoleic Triglyceride;Oleic/Palmitic/Lauric/Myristic/Linoleic Triglyceride; Oleostearine;Olive (Olea Europaea) Husk Oil; Olive (Olea Europaea) Oil; OmentalLipdis; Orange Roughy Oil; Ostrich Oil; Oxidized Corn Oil; Palm (ElaeisGuineensis) Kernel Oil; Palm (Elaeis Guineensis) Oil; Passionflower(Passiflora Edulis) Oil; Peach (Prunus Persica) Kernel Oil; Peanut(Arachis Hypogaea) Oil; Pecan (Carya Illinoensis) Oil; Pengawar Djambi(Cibotium Barometz) Oil; Phospholipids; Pistachio (Pistacia Vera) NutOil; Placental Lipids; Poppy (Papaver Orientale) Oil; Pumpkin (CucurbitaPepo) Seed Oil; Quinoa (Chenopodium Quinoa) Oil; Rapeseed (BrassicaCampestris) Oil; Rice (Oryza Sativa) Bran Oil; Rice (Oryza Sativa) GermOil; Safflower (Carthamus Tinctorius) Oil; Salmon Oil; Sandalwood(Santalum Album) Seed Oil; Seabuchthorn (Hippophae Rhamnoides) Oil;Sesame (Sesamum Indicum) Oil; Shark Liver Oil; Shea Butter(Butyrospermum Parkii); Silk Worm Lipids; Skin Lipids; Soybean (GlycineSoja) Oil; Soybean Lipid; Sphingolipids; Sunflower (Helianthus Annuus)Seed Oil; Sweet Almond (Prunus Amygdalus Dulcis) Oil; Sweet Cherry(Prunus Avium) Pit Oil; Tali Oil; Tallow; Tea Tree (MelaleucaAlternifolia) Oil; Telphairia Pedata Oil; Tomato (Solanum Lycopersicum)Oil; Triarachidin; Tribehenin; Tricaprin; Tricaprylin; TrichodesmaZeylanicum Oil; Trierucin; Triheptanoin; Triheptylundecanoin;Trihydroxymethoxystearin; Trihydroxystearin; Triisononanoin;Triisopalmitin; Triisostearin; Trilaurin; Trilinolein; Trilinolenin;Trimyristin; Trioctanoin; Triolein; Tripalmitin; Tripalmitolein;Triricinolein; Trisebacin; Tristearin; Triundecanoin; Tuna Oil;Vegetable Oil; Walnut (Juglans Regia) Oil; Wheat Bran Lipids; and Wheat(Triticum Vulgare) Germ Oil.

The gel compositions in accordance with embodiments of the invention maybe obtained by the following method. First, one or more compounds to begelled are mixed with a gelling agent. Second, the mixture typically isheated to a temperature in the range of about 70° C. to about 140° C.,although other temperatures also are acceptable. The mixture is agitateduntil a homogeneous mixture is obtained. The homogeneous mixture is thencooled to room temperature. A gel composition is thus obtained. It isnoted that the compound to be gelled need not be mixed with a gellingagent before heating. Instead, the compound may be heated to a desiredtemperature first, and then the gelling agent is added to the compound.

The following examples are given to illustrate embodiments of theinvention. They are merely exemplary and are not intended to limit thescope of the invention otherwise described herein. All numerical valuesdisclosed herein are approximate numbers. In some examples, anantioxidant was added in an amount of about 0.02%. Any antioxidants canbe used. One suitable antioxidant is 2,6-di-tert-butyl-4-methylphenol(“BHT”).

EXAMPLE 1

A sample of gelled isopropyl myristate (available under the trade nameof Estol 1512, Lexol IPM, etc.) was prepared (85.28 wt. % isopropylmyristate+14.30 wt. % Kraton G 1702+0.40 wt. % Kraton G 1650). Thefinished gel exhibited excellent clarity and had a Brookfield viscosity(5 rpm, spindle T-C) of 157,000 CPS at 25° C.

EXAMPLE 2

A sample of gelled octyl methoxycinnamate (trade names: Parsol MCX,Escalol 557, Neo Heliopan AV) was prepared (87.58 wt. % octylmethoxycinnamate+12.00 wt. % Kraton G 1701+0.40 wt. % Kraton G 1650).The finished gel was clear and stable through several freeze/thawcycles.

EXAMPLE 3

A sample of zinc oxide suspension in gelled octyl methoxycinnamate wasprepared by using 50.00 wt. % of zinc oxide and 50.00 wt. % of thegelled octyl methoxycinnamate illustrated in Example 2. The finishedsuspension had good consistency and maintained stability withoutseparation for 15 days under thermal stress.

EXAMPLE 4

A sample of gelled propylene glycol dicaprylate/caprate (trade name:Estol 1526) was prepared (87.58 wt. % propylene glycoldicaprylate/caprate+12.00 wt. % Kraton G 1780+0.40 wt. % Kraton G 1650).The gel was clear at ambient temperature.

EXAMPLE 5

A sample of gelled isostearyl neopentanoate (trade name: Dermol 185) wasprepared (85.58 wt. % isostearyl neopentanoate+14.00 wt. % Septon1001+0.40 wt. % Kraton G 1650). The finished gel was clear and stablewithout syneresis.

EXAMPLE 6

Jojoba oil gel was prepared (91.28% jojoba oil+0.4% Kraton G 1650+8.3%Kraton G 1702). The gel was clear and viscous.

EXAMPLE 7

Eicosyl erucate (trade name: Erucical EG-20) gel was prepared (91.28%Erucical EG-20+0.4% Kraton G 1650+8.3% Kraton G 1702). The gel was clearand stable without syneresis.

In addition to the above examples of gel compositions, various other gelcompositions also were obtained. Tables 3 -6 summarize the gelcompositions obtained in accordance with embodiments of the invention.TABLE 3 Ester Kraton ® Kraton ® Kraton ® Kraton ® Septon ® Kraton ®Kraton ® INCI Name (wt. %) G1650 G1702 G1701 G1780 1001 FG191 G1652Isopropyl Myristate 85.28 0.4 14.3 90.58 0.4 9.00 Isopropyl Palmitate87.58 0.4 12.00 89.58 0.4 10.00 85.58 0.4 14.00 C12-15 Alkyl 83.58 0.416.00 Benzoate 87.58 0.4 12.00 87.98 12.00 89.58 0.4 10.00 89.98 10.00Octyl 89.58 0.40 10.00 Methoxycinnamate 83.58 0.40 16.00 85.58 0.4014.00 81.58 0.40 12.00 83.58 0.40 16.00 87.58 0.40 12.00 85.58 0.4014.00 89.58 0.40 10.00 Octyl Dodecyl 81.98 12.00 NeopentanoateIsostearyl 85.58 0.40 14.00 Neopentanoate 81.98 12.00 Tridecyl 87.580.40 12.00 Salicylate 91.28 0.4 8.30 Octyl Dodecanol 89.58 0.4 10.0088.89 6.67 4.44 90.00 5.48 4.5 90.00 5.45 4.5 87.58 0.4 12.00 89.58 0.410.00 Propylene Glycol 87.58 0.4 12.00 Dicaprylate/caprate Jojoba Oil91.28 0.4 8.30

TABLE 4 Ester Polymer Antioxidant Polymer Type (%) (%) (%) 1,2-benzene-Vector ® 6030 91.98 8 0.02 dicarboxylic acid, di- Vector ® 8550 91.98 80.02 C₈₋₁₀ br alkyl ester Vector ® 2518P 91.98 8 0.02 Solprene ® S20091.98 8 0.02 1,2 benzene- Vector ® 6030 91.98 8 0.02 dicarboxylic acid,di- undecyl ester

TABLE 5 Polymer Antioxidant Oil Type Polymer Type Oil (%) (%) (%)Sunflower Seed Oil Kraton ® D1102 91.9 8 0.10 Kraton ® D1133 91.9 8 0.10Kraton ® D1101 91.9 8 0.10 Vector ® 6030 91.9 8 0.10 Corn Oil Vector ®6030 91.9 8 0.10 Sesame Oil Vector ® 6030 91.9 8 0.10 Soybean OilKraton ® D1101 89.90 10 0.10 Kraton ® D1102 85.98 14 0.02 Vector ® 603091.90 8 0.10 Linseed Oil Kraton ® D1102 85.90 14 0.10 Vector ® 603091.90 8 0.10

TABLE 6 Isopropyl Alkyl Palmitate Galactomannan Antioxidant Oil Type Oil(%) (%) (%) (%) Sunflower 46.99 46.99 6.0 0.02 Seed 44.99 44.99 10.00.02 Oil 75.18 18.8 6.0 0.02 71.95 18.0 10.0 0.05 Corn Oil 75.1 18.8 6.00.10 71.9 18.0 10.0 0.10 Soybean Oil 75.1 18.8 6.0 0.10 71.9 18.0 10.00.10 Sesame Oil 68.9 25.0 6.0 0.10 65.31 25.5 9.1 0.09 Olive Oil 68.925.0 6.0 0.10 65.9 25.0 9.0 0.10

EXAMPLE 8

An in-vivo test was conducted to evaluate the waterproof efficacy of asunscreen lotion based on a gelled ester composition. The in-vivo testprocedure was conducted in accordance with the FDA monographs forsunscreen testing published in Federal Register, Vol. 43, No. 166, Aug.25, 1978. Briefly, a finished sunscreen lotion was applied to a skinsurface which was subsequently submerged in water. Before waterimmersion, the sun protection factor (“SPF”) was measured. After eightyminutes of water immersion, the SPF value was measured again. Thepercentage of the remaining SPF is indicative of the waterproof efficacyof the sunscreen lotion.

In this example, two sunscreen lotions were prepared according to Table7. Both lotions contained approximately the same amount of a sunscreenactive ingredient, i.e., octyl methoxycinnamate (“OMC”). SunscreenLotion A included gelled OMC, whereas Sunscreen Lotion B included neatOMC. Both sunscreen lotions contained approximately the same amounts ofother ingredients as indicated in Table 7. TABLE 7 Sunscreen SunscreenIngredient Lotion A Lotion B De-ionized water 45.74 45.74 Tetra sodiumEDTA 0.10 0.10 Proplyene Glycol 2.50 2.50 Carbopol 940 (2% solution)25.00 25.00 DEA-cetyl phosphate 1.00 1.00 Cetearyl Alcohol and Ceteareth20 1.50 1.50 Mineral oil — 1.26 Octyl Methoxycinnamate — 7.50 OctylMethoxycinnamate + Hydrogenated 8.76 — Ethylene/propylene/styrenecopolymers + Hydrogenated Butylene/ethylene/styrene copolymersDimethicone 2.00 2.00 Diisodecyl Adipate 7.00 7.00 C₁₂₋₁₅ Alkyl Benzoate5.00 5.00 Triethanol amine 0.40 0.40 Diazolidinyl urea + propyleneglycol + 1.00 1.00 methylparaben + propylparaben Remaining SPF after 80min. water immersion 84% 69%

After eighty minutes of water immersion, the remaining SPF for SunscreenLotion A was about 84% ofthe pre-immersion SPF. As to Sunscreen LotionB, the remaining SPF was about 69% of its pre-immersion SPF. Therefore,the test result indicates that inclusion of a gelled sunscreen activeingredient increases the waterproof efficacy of the sunscreen lotion.

EXAMPLE 9

This example shows that gelled esters are comparable to petrolatum as anocclusive agent. An in-vivo skin barrier test was utilized to evaluate agelled ester's ability to enhance the barrier function of the stratumcorneum of human skin. Three different ester gels were formulated andevaluated in this test. Their respective formulations are listed inTable 8. TABLE 8 Kraton Kraton Ester G1701 G1650 Kraton G1701Antioxidant Sample Intermediate (wt. %) (wt. %) (wt. %) (wt. %) (%) GelNo. 1 C₁₂₋₁₅ Alkyl 85.58 14.00 0.40 — 0.02 Benzoate Gel No. 2 IsopropylPalmitate 87.58 12.00 0.40 — 0.02 Gel No. 3 Octyl 85.58 — 0.40 14.000.02 Methoxycinnamate

An independent laboratory conducted Trans-Epidermal Water Loss (“TEWL”)testing using the above gel compositions. Thirteen subjects wereemployed. TEWL measurements were taken on each subject at baseline andat 1, 2, and 3 hours after the application of a test material. AServomed® Evaporimeter was used to measure the effectiveness of atopically applied test material. The evaporimeter samples relativehumidity at two points above the skin surface which allowed the rate ofwater loss to be calculated from the measured humidity gradient.Petrolatum also was included in the measurements. The data obtained fromthe TEWL measurements are presented in Table 9. TABLE 9 Test Hour 1 Hour2 Hour 3 Material Baseline mean Δ% mean Δ% mean Δ% Gel No. 1 7.07 5.4722.6% 5.44 23.1% 5.26 25.6% Gel No. 2 6.66 5.37 19.4% 5.14 22.8% 4.7229.1% Gel No. 3 6.76 5.79 14.3% 5.49 18.8% 5.25 22.3% Petrolatum 6.644.64 30.1% 4.28 35.5% 4.13 37.8%Note:Δ% = (Baseline − Mean) * 100/Baseline.

The data indicate that all three gelled esters are effective inretaining moisture in the skin. Consequently, gelled esters can be usedas an occlusive agent in various health and beauty aid compositions.

EXAMPLE 10

This example shows that a gelled composition has significantly higherloading capacity as a suspension system. To compare the loading capacityof gelled soybean oil with that of neat soybean oil, two experimentswere conducted: about 3 grams coated TiO₂ powder were suspended in about97 grams of neat soybean oil; and about 50 grams of the same coated TiO₂powder were suspended in 50 grams of gelled soybean oil. No dispersantagent was used in either suspension system. The gelled soybean oil wasmade from the following formulation: about 85.9 wt. % of commerciallyavailable soybean oil and about 14 wt. % of Kraton® D1102. It wasobserved that only about 2 wt. % of TiO₂ remained suspended in the neatsoybean oil. In contrast, about 50 wt. % of TiO₂ was suspended in thegelled soybean oil. It is surprising that the loading capacity of gelledsoybean oil is about 25 times more than that of neat soybean oil. Theincreased loading capacity by using a gelled naturally-occurring fat oroil should result in improved performance and cost savings.

Accordingly, the gel compositions in accordance with embodiments of theinvention have numerous cosmetic and industrial applications. The gelcompositions may be used alone or in combination with one or moreadditional ingredients. For example, the gel compositions are suitableas lubricants, suspending agents, emulsion stabilizers, thickeningagents, personal care ingredients, air freshener components, pesticideand insecticide components, ingredients for candle and ornamentalproducts, pharmaceutical carriers and carrier ingredients, ointment baseingredients, sporting goods, and vehicles for carrying other materials.Since esters are generally considered as biodegradable materials, thisallows gelled esters to find application in products where minimalpollution is desired. Examples include fishing line lubricant, solderflux, agricultural dust reduction and lubrication, textile coating,protective coating for transporting fragile or environmentally-sensitivematerials, and biodegradable oils and greases.

It has been discovered that the gel compositions in accordance withembodiments of the invention keep solids and/or liquids substantiallyuniformly suspended and evenly dispersed over a substantial period oftime. The suspended liquids and/or solids may be present in the gel inamounts of up to about 95 weight percent. Suitable solids and/or liquidsthat can be suspended in the gel include any solid or non-hydrocarbonoil liquid which will disperse into the gel and remain substantiallysuspended or evenly dispersed therein.

Examples of suitable solids include, but are not limited to, zinc oxide,coated zinc oxide, surface-treated zinc oxide, titanium dioxide, coatedtitanium dioxide, surface-treated titanium dioxide, phosphorescentsubstances, fluorescent materials, molybdenum oxide, zinc sulfide,copper-dopped zinc sulfide, graphite, explosive materials, pesticides,herbicides, fungicides, insecticides, plasticizers, air sensitivechemicals, moisture sensitive chemicals, boron nitride, iron oxides,talc, mica, plastics, polymers, silica, silicon dioxide, aluminum oxide,inorganic materials, organometallic materials, metal particles, medicalmaterials (such as antibacterials, antibiotics, antimicrobials,antifungals, and anesthetics), glass, clays, gums, capsules containingan active ingredient, starch, modified starch, other encapsulatedmaterials, and mixtures thereof.

Examples of oil insoluble liquids which can be suspended in the gelsinclude, but are not limited to, water, water containing one or morewater soluble materials, glycerin, propylene glycol, butylene glycol,alcohols, acids, surfactants, emulsifiers, polyglycerols, ethers, polaresters, fluorinated compounds, perfluoropolyethers, silicones,silicon-containing compounds, and the mixtures thereof.

Pending U.S. patent application Ser. No. 09/007,838, entitled“Hydrocarbon Gels as Suspending and the Dispersing Agents and Products,”filed Jan. 15, 1998, discloses methods of making a suspension systembased on gelled hydrocarbons. The disclosed methods can be utilized inembodiments of the invention to make suspension systems which are basedon gelled esters, gelled alcohols, gelled naturally-occurring fats andoils, or gelled ethers. The disclosure of the above-referenced patentapplication is incorporated by reference in its entirety herein.

The gel compositions in accordance with embodiments of the inventionalso have a wide spectrum of cosmetic applications when the gelcompositions include an effective amount of one or more cosmetic andhealth and beauty aid ingredients. By “effective amount,” it is meantthat a sufficient amount of the ingredient is present to be effectivefor the indicated purpose in the composition. An effective amount mayrange from about 0.001 to about 80 wt. %. By “cosmetic and health andbeauty aid ingredients,” it is meant any material which can be appliedtopically to the human skin or any part thereof for cleansing,beautifying, promoting attractiveness, and protecting or altering theappearance of the skin without altering or interfering with thephysiological competence of the human skin or body. Included within thisdefinition are creams, lotions, emollients, fragrance oils,moisturizers, humectants, cosmetic oils, and so on. The gel compositionsin accordance with embodiments of the invention also may contain skincare preservatives, diluents, surfactants, anti-wrinkle agents, and thelike.

Furthermore, the gel compositions may be utilized to manufacture variousover-the-counter (“OTC”) products. An OTC product may be made entirelyfrom a gel composition; or only a component of the OTC is made from thegel composition. Examples of OTC products include, but are not limitedto, antiperspirants, lip balms, and sunscreen (e.g., natural sunblocks,such as submicron particles of metal oxides or synthetic sunblockagents, such as octyl methoxycinnamate and benzophenone-3).

As mentioned above, the gel composition in accordance with embodimentsof the invention may be utilized as carrier vehicles for topicaladministration of various cosmetic and health and beauty aid materialsto the skin. Thus, such materials can be incorporated into the gel whichare applied to the skin to be absorbed, to form a film on the skin, toprovide a cooling sensation, to treat dry skin or oily skin, to work amaterial into the skin, to alter the overall texture of the skin, or tochange color. All of these effects are sought to be achieved by varioushealth and beauty aid products. Methods for making such skin careproducts are known in the art. For example, U.S. Pat. No. 5,558,872discloses a clear gelled mineral oil based skin protectant. Similar skinprotectants may be made by substituting the mineral oil gel by the gelcompositions in accordance with embodiments of the invention. Thedisclosure of U.S. Pat. No. 5,558,872 is incorporated by reference inits entirety herein.

It is noted that preferred uses of the gel compositions in accordancewith embodiments of the invention include formation of thickenedliquids, soft gels and semi-solid gels. Gels are particularly useful inwaterproofing sunscreen compositions, makeup, mascara, etc. They alsoare useful in petrolatum-based products, such as petroleum jelly, makeupfoundation, and night creams. They also can be used as substitutes forwater-soluble polymers in products, such as lip rouge-cream, eyelinerliquid, and the like. They also may be used as a gelling agent in facialoil.

Semi-solid or solid gels have applications as toiletry sticks, such as astick insect repellant or a matrix for clear or opaque stick products,which include deodorants, antiperspirants, lipsticks, analgesics,blushers, solid lotions and solid absorbable flexible gels. Methods formaking such cosmetic sticks are known. For example, U.S. Pat. No.5,756,082 discloses a cosmetic stick composition based on a hydrocarbonoil gel. The disclosed hydrocarbon oil gels may be substituted by thegel compositions in accordance with embodiments of the invention to makecosmetic stick compositions. The disclosure of U.S. Pat. No. 5,756,082is incorporated by reference in its entirety herein.

As demonstrated above, the gel compositions in accordance withembodiments of the invention have a wide range of industrial andcosmetic applications. When so used, the gel compositions may exhibitone or more of the following properties or advantages: transparency;compatibility with active ingredients; reduction or elimination ofsyneresis; ability to act as a vehicle to provide a stable suspension ofan ingredient; moisturization; enhancement of wash-off resistance;provision of improved SPF when formulated into sunscreen products;reduction in absorption and irritation; elimination or minimization ofwhitening effect; ability to act as a cosmetic base; controlled releaseof volatile ingredients; and formulation with less emulsifiers. Otherproperties and advantages are apparent to a person of ordinary skill inthe art.

While the invention has been described with respect to a limited numberof embodiments, modifications and variations therefrom exist. Forexample, although suitable esters, ethers, alcohols, andnaturally-occurring fats and oils have been described with some depth,other compounds also can be used. Additional suitable esters may includealkoxylated fatty acids, glyceryl ethers, and sorbitan derivatives.Additional suitable alcohols may include alkanolamides, alkanolamines,fatty alcohols, polyols, phenols, and sterols. Additional suitableethers include heterocyclic ethers, e.g., tocopherol, alkoxylatedalcohols, alkoxylated amides, alkoxylated amines, alkoxylated carboxylicacids, polymeric ethers, and glyceryl ethers. Similarly,naturally-occurring fats and oils may include so-called “essentialoils,” which are volatile organic constituents of plants normallyobtained by distillation. In addition to the above-described compounds,aldehydes and ketones also may be formed into gel compositions inaccordance with embodiments of the invention. The appended claims areintended to encompass all such modifications and the variations asfalling within the scope of the invention.

1-27. (Cancelled)
 28. A gel composition, comprising: an ester compound;and a polymer compound having at least one rigid block selected from thegroup consisting of polystyrene, polyethylene, polyvinylchloride, andphenolics and one elastic block selected from the group consisting ofethylene/butadiene copolymers, polyisoprene, polybutadiene,ethylene/propylene copolymers, ethylene-propylene/diene copolymers,wherein the polymer is selected from the group consisting of triblockcopolymers, star polymers, radial polymers, multi-block copolymers, andcombinations thereof, wherein the gel composition is substantially freeof mineral oils; wherein the ester is represented by one of thefollowing formulas:

wherein n=1, 2, 3, and 4, and R₁ includes hydrogen, hydrocarbyl, phenyl,methoxyphenyl, alkylphenyl, substituted alkyl, and substituted phenyl;R₂ includes hydrogen, hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl,substituted alkyl, substituted phenyl, alkylene, phenylene, substitutedalkylene, and substituted phenylene, and R₃ includes alkylene,phenylene, substituted alkylene, or substituted phenylene, and whereinR₄, R₅, and R₆ individually include alkylene, phenylene, substitutedalkylene, or substituted phenylene, and R₇, R₈ and R₉ individuallyinclude hydrogen, hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl,substituted alkyl, and substituted phenyl.
 29. The gel composition ofclaim 28, further comprising a diblock copolymer, wherein the gelcomposition is substantially free of mineral oils.
 30. The gelcomposition of claim 28, wherein the ester is selected from the groupconsisting of isopropyl myristate, isopropyl palmitate, C₁₂-C₁₅ alkylbenzoate, octyl methoxycinnamate, octyl dodecyl neopentanoate, propyleneglycol dicaprylate/caprate, jojoba oil, and isostearyl neopentanoate.31. The gel composition of claim 28, wherein the polymer compound ispresent in the amount of about 1% to about 40% by weight.
 32. The gelcomposition of claim 29, wherein the diblock copolymer is selected fromthe group consisting of styrene-ethylene/propylene copolymers,styrene-ethylene/butadiene copolymers, styrene-isoprene copolymers, andstyrene-butadiene copolymers.
 33. The gel composition of claim 28,wherein the triblock copolymer is selected from the group consisting ofstyrene-ethylene/propylene-styrene copolymers,styrene-ethylene/butadiene-styrene copolymers, styrene-isoprene-styrenecopolymers, and styrene-butadiene-styrene copolymers.
 34. The gelcomposition of claim 29, wherein the diblock copolymer is hydrogenated.35. The gel composition of claim 28, wherein the triblock copolymer ishydrogenated.
 36. The gel composition of claim 28, wherein the triblockcopolymer includes a grafted functional group.
 37. The gel compositionof claim 28, further comprising a suspended component.
 38. The gelcomposition of claim 37, further comprising a diblock copolymer.
 39. Thegel composition of claim 37, wherein the suspended component is a solidselected from the group consisting of organic materials, inorganicmaterials, organometallic materials, phosphorescent materials, andfluorescent materials.
 40. The gel composition of claim 37, wherein thesuspended component is a solid selected from the group consisting ofzinc oxide, coated zinc oxide, surface-treated zinc oxide, titaniumdioxide, surface-treated titanium dioxide, graphite, explosives,air-sensitive chemicals, moisture-sensitive chemicals, boron nitride,iron oxides, talc, mica, plastics, polymers, silica, silicon dioxide,aluminum oxide, metal particles, antibacterials, antibiotics,anesthetics, glass, clays, gums, capsules containing an activeingredient, starch, modified starch, other encapsulated materials, andcombinations thereof.
 41. The gel composition of claim 37, wherein thesuspended component is a liquid selected from the group consisting ofwater, water containing a water-soluble material, glycerin, propyleneglycol, butylene glycol, alcohols, acids, surfactants, emulsifiers,polyglycerols, ethers, polar esters, fluorinated compounds,perfluoropolyethers, silicones, silicon-containing compounds, andcombinations thereof.
 42. The gel composition of claim 28, furthercomprising an active ingredient.
 43. The gel composition of claim 42,wherein the active ingredient is selected from the group consisting ofsunscreens, antiperspirants, deodorants, perfumes, cosmetics,emollients, insect repellants, pesticides, herbicides, fungicides,plasticizers, insecticides, and medicaments.
 44. A gel composition,comprising: a compound selected from the group consisting of alcohols,ethers, naturally occurring fats and oils, and combinations thereof; anda polymer compound selected from the group consisting of diblockcopolymers, triblock copolymers, star polymers, radial polymers,multi-block copolymers, and combinations thereof, wherein the polymercompound has at least one rigid block selected from the group consistingof polystyrene, polyethylene, polyvinylchloride, and phenolics and oneelastic block selected from the group consisting of ethylene/butadienecopolymers, polyisoprene, polybutadiene, ethylene/propylene copolymers,ethylene-propylene/diene copolymers.
 45. The gel composition of claim44, wherein the alcohols include octyl dodecanol or isostearyl alcohol.46. The gel composition of claim 44, wherein the ethers includedicarylyl ether.
 47. A gel composition, comprising: a compound selectedfrom the group consisting of esters, alcohols, ethers, naturallyoccurring fats and oils, and combinations thereof; and a polymercompound selected from the group consisting of alkyl galactomannan,polybutadiene, and combinations thereof.
 48. A method of making a gelcomposition, comprising: mixing an ester compound with a polymercompound having at least one rigid block selected from the groupconsisting of polystyrene, polyethylene, polyvinylchloride, andphenolics and one elastic block selected from the group consisting ofethylene/butadiene copolymers, polyisoprene, polybutadiene,ethylene/propylene copolymers, ethylene-propylene/diene copolymers,wherein the polymer is selected from the group consisting of triblockcopolymers, star polymers, radial polymers, multi-block copolymers, andcombinations thereof, heating the mixture; agitating the mixture untilthe mixture becomes homogeneous; and cooling the mixture; wherein thegel composition is substantially free of mineral oils; wherein the esteris represented by one of the following formulas:

wherein n=1, 2, 3, and 4, and R₁ includes hydrogen, hydrocarbyl, phenyl,methoxyphenyl, alkylphenyl, substituted alkyl, and substituted phenyl;R₂ includes hydrogen, hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl,substituted alkyl, substituted phenyl, alkylene, phenylene, substitutedalkylene, and substituted phenylene, and R₃ includes alkylene,phenylene, substituted alkylene, or substituted phenylene, and whereinR₄, R₅, and R₆ individually include alkylene, phenylene, substitutedalkylene, or substituted phenylene, and R₇, R₈ and R₉ individuallyinclude hydrogen, hydrocarbyl, phenyl, methoxyphenyl, alkylphenyl,substituted alkyl, and substituted phenyl.
 49. A method of making a gelcomposition, comprising: mixing an alcohol, an ether or a naturallyoccurring fat or oil or combinations thereof with a polymer compoundselected from the group consisting of diblock copolymers, triblockcopolymers, star polymers, radial polymers, multi-block copolymers, andcombinations thereof, wherein the polymer compound has at least onerigid block selected from the group consisting of polystyrene,polyethylene, polyvinylchloride, and phenolics and one elastic blockselected from the group consisting of ethylene/butadiene copolymers,polyisoprene, polybutadiene, ethylene/propylene copolymers,ethylene-propylene/diene copolymers heating the mixture; agitating themixture until the mixture becomes homogeneous; and cooling the mixture.50. A method of making a gel composition, comprising: mixing an ester,an alcohol, an ether or a naturally occurring fat or oil with alkylgalactomannan or polybutadiene, heating the mixture; agitating themixture until the mixture becomes homogeneous; and cooling the mixture.